换能器尖端超声导管在冠状动脉血栓坏死中的数值模拟

2018 25th National and 3rd International Iranian Conference on Biomedical Engineering (ICBME) Pub Date : 2018-11-01 DOI:10.1109/ICBME.2018.8703578

N. Molaei, A. Mojra

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引用次数: 1

摘要

治疗性超声已被确立为一种靶向治疗的治疗方法。声波的非线性传播使组织升温，特别是在靠近超声源的区域。血管内超声利用热方面的声波在导管的大小，以打破血凝块组织或斑块。对冠状动脉部分阻塞的三维模型进行了数值模拟。为了准确估计超声导管辅助装置植入后冠状动脉内的温度场，进行了数值模拟。波的传播频率为1MHz，换能器初始压力为0.24MPa。血管内超声暴露导致血块区域在100秒内温度升高1.54°C。结果表明，通过增加换能器的频率和曝光时间，可以提高温升。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Numerical Simulation of Transducer-Tipped Ultrasound Catheter for Necrosis of Blood Clot through Coronary Artery

Therapeutic ultrasound has been established as a targeted therapy treatment method. Nonlinear propagation of acoustic waves heats up the tissue especially in the region close to the ultrasound source. Intravascular Ultrasound uses thermal aspect of acoustic wave in the catheter size, in order to break down the blood clot tissue or plaque. A numerical method is conducted on three-dimensional model of the coronary artery partially blocked with a clot. The numerical simulation is developed to give a proper estimation of the temperature field through the coronary artery after implantation of the ultrasound catheter-assisted device. The wave propagates with the frequency of 1MHz and initial transducer pressure of 0.24MPa. Exposure of intravascular ultrasound leads to temperature rise of 1.54 °C during 100 seconds in the clot areas. Moreover, results show that by increasing the frequency of the transducer and the exposure time, the temperature rise could be increased.

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来源期刊

2018 25th National and 3rd International Iranian Conference on Biomedical Engineering (ICBME)

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